DE19913344C1 - Needleless injection syringe includes mounting for capsule of medicament with piston operated by spring, which can be tensioned from common rotary unit - Google Patents

Abstract

The casing (4) has a nozzle (6) at one end (8), a mounting (14) for a capsule (12) of fluid with piston (18). A spring (24) acting on the piston, has a tensioning mechanism and release. The tensioning mechanism acts through a coupling from a conventional toothed drive unit.

Description

The present invention relates to a needleless one Injection device for injecting liquids into the A patient's body, especially in the oral area.

For many patients, the most uncomfortable moment is one Visiting the dentist the fear of the needle stick Application of a local anesthetic. For the different forms of local anesthesia different types of injection devices are offered. So are in lead and infiltration anesthesia Hypodermic syringes used with those for safety reasons aspiration is possible before each injection. Both Disposable plastic or glass plunger syringes can do this easy retraction of the syringe plunger can be achieved. There is a special one for cylinder ampoule syringes Clamping mechanism with which a rubber stamp is withdrawn can be. Through cannulas of different strength the local anesthetic in the appropriate tissue region. While previously almost exclusively sterilizable Steel cannulas have been used in the meantime sterilized disposable cannulas. This Conventional syringes all have the disadvantage that a needle or cannula for injection of the local anesthetic is required, which is considerable in the patient Injection pain caused.

WO-A-96/36381, for example, is an injection device for high pressure injection of a liquid or a particle containing liquid known. This injection device has a pressure chamber which is in an injection opening opens out and is delimited by a working piston which  is displaceable by a drive in the pressure chamber. The Drive is as an elastic push on the Working piston exercising stop piece, the driven up to the stop on the pressure chamber opposite end of the piston is accelerated. Here is the stop piece with the shock transmission no drive and the volume of the pressure chamber is greater than the displacement volume of the working piston at its Flush of work displaced liquid.

Other needleless injection devices are, for example WO-A-94/07554, WO-A-95/03844, WO-A-96/24398, WO-A- 95/27523, WO-A-95/16481, WO-A-97/13536, EP-A-370 571, EP-A- 286 798, EP-A-276 158 or DE-A-33 28 173.

The known needleless injection devices have the particular disadvantage that they are relatively large due to the loading mechanism and have a relatively large mass to reduce the recoil. An injection device on the market has a weight of approx. 590 g, is approx. 28 cm long and costs around DM 3 , 500.00 . Because of its size and weight, such a device has psychological disadvantages for the patient and medical disadvantages for the attending doctor.

The present invention is based on the object improved needleless injection device available put. This task is accomplished with the features of the claims solved.

The invention is based on the basic idea that needleless injection device a coupling section on the the nozzle has the opposite end to the at the usual dental angle tools trained Coupling elements for driving drills, milling cutters and the like. s. w. corresponds. This means that the invention Needle-free injection device as a loading mechanism for the Activation of the syringe to the basic equipment of a  coupling belonging to every dental treatment chair can be coupled for the treatment tools provided there is. This is preferably at that of the nozzle opposite end portion of the injection device Rotational element provided that with a gear and a another axially movable rotary element for preloading a spring element is connected.

The needleless injection device according to the invention has known injection devices in particular the advantages that no complicated loading mechanism for pretensioning one Spring element is required and that the device itself with relatively small size and light weight can be because it has a drive device with a Connection channel is connected, the sufficient mass to reduce recoil. Furthermore, that is Needle-free injection device according to the invention from a few Parts assembled, low or low maintenance and light sterilizable. In addition, commercially available Cartridges for the liquid to be injected continue be used. Compared to injection devices with cannulas there is no risk of cannula breakage and the risk of Allergies and intoxications can be caused by the lower Injection amount can be significantly reduced. Another essential advantage of the injection device according to the invention is that it works seamlessly, d. H. the patients have to no longer have to worry about painful needle punctures. Rather, is with the injection of a local anesthetic the injection device according to the invention only one a single short tapping on the gums. This further increases the acceptance of this injection method increased so that better dental and oral surgical treatment successes are expected.

The needleless injection device according to the invention is below based on a preferred embodiment Described with reference to the drawing. It shows:  

Fig. 1 shows a schematic longitudinal section through the needleless injection device according to the invention.

The needleless injection device 2 according to the invention shown in FIG. 1 has a preferably essentially cylindrical housing 4 with a first end 8 having an outlet nozzle 6 and a second end 10 opposite the nozzle. The housing is preferably made of metal or a metal alloy, but can also be made of plastic, glass and other easily sterilizable materials.

The nozzle 6 provided in the first end 8 of the housing 4 opens in the housing into a cartridge receiving section 14 for receiving commercially available cartridges 12 which contain the fluid 16 to be injected. For high-pressure injection of the fluid, an axially movable piston 18 is also provided in the housing 4 , which is movable into the cartridge 12 and is guided in a sealed manner therein. If the piston 18 is quickly moved in the cartridge 12 in the direction of the nozzle 6 , the fluid 16 to be injected is dispensed under high pressure from the needleless injection device 2 according to the invention and penetrates into a patient's body depending on the pressure.

A piston rod 20 is preferably provided on a side of the piston 18 opposite the nozzle 6 and is operatively connected to a spring plate 22 with a spring element 24 . The piston rod 20 is only preferred for the needleless injection device 2 according to the invention, but it is also possible for the spring element 24 to act directly on the side of the piston 18 facing away from the nozzle 6 . The spring element 24 is preferably a compression spring, such as. B. a coil pressure spring or a plate spring package, a gas pressure spring, a hydraulic spring element or a volume space containing a compressible medium.

The spring element 24 is preferably axially movably mounted in a guide device 26 provided in the housing 4 . The needleless injection device 2 shown in FIG. 1 is shown with a prestressed spring element 24 . For prestressing the spring element 24 , a tensioning mechanism is provided which can be connected to a conventional dental drive device, such as is provided, for example, on a dentist's chair for driving drills, etc. For this purpose, it is preferred to provide a coupling element 28 at the end 10 of the housing 4 for coupling the drive device (not shown). This coupling element 28 represents part of a first, essentially axially fixed rotation element. The rotation element has an extension element 30 which extends in the axial direction and preferably has an essentially semicircular cross-sectional profile. In addition, the loading mechanism has a second, axially movable rotation element 32 , which can also be set in rotation via the coupling element 28 . The second rotary element 32 also preferably has an essentially semicircular cross section. The two rotary elements then together form an essentially cylindrical outer circumference in an overlap section 34 . As a result, when the first rotary element 30 rotates, the second rotary element 32 is also moved. The second rotary element 32 has an axial guide section 36 on which the spring element 24 is supported. The axial guide section 36 is preferably provided with an external thread 38 which engages with an internal thread 40 provided in the guide element 26 . When the drive device rotates, the two rotary elements 30 and 32 are set in rotation, the thread 38 or 40 axially displacing the second rotary element in accordance with its pitch, so that the overlap section 34 becomes smaller as the spring element 24 is preloaded.

To achieve a predeterminable or defined spring preload, the needleless injection device according to the invention preferably has a limiting device for limiting the axial travel of the second rotary element 32 . This limiting device can be formed, for example, by a stop means for the second rotary element 32 and a slip clutch provided on the drive device or the coupling element 28 . When the axial guide element 36 strikes the stop means, the axial movability of the second rotary element 32 is blocked, so that the first rotary element 30 can no longer rotate with the coupling element 28 . With the help of the slip clutch, the rotational movement made available by the drive device is no longer transmitted to the tensioning mechanism of the injection device 2 according to the invention. Alternatively, the limiting device can be formed, for example, by a gearwheel 42 which is in engagement with the two rotation elements 30 and 32 . The gear 42 is designed such that it prevents further rotation of the two rotation elements in a predetermined axial position of the second rotation element 32 . This can be done, for example, by appropriately designing the toothing provided on the rotary element 32 . In this embodiment of the limiting device, too, a slip clutch (not shown) on the drive device or in the region of the coupling element 28 is advantageous.

To trigger the needleless injection device 2 according to the invention, the piston 18 must be unlocked in order to expel the fluid in the cartridge 12 under high pressure through the nozzle 6 . For this purpose, a locking device 44 is preferably provided on the piston rod 20 or else on the piston 18, which engages with a locking element 46 provided on the housing 4 during tensioning. The latching device 44 can be designed, for example, in the form of a longitudinal toothing formed on the piston 18 or on the piston rod 20 , into which the latching element 46 engages. To trigger the needleless injection device 2 according to the invention, the locking element 46 must be brought out of engagement with the locking device 44 . For this purpose, a release button 48 protruding through the housing 4 is preferably provided which, when pressed thereon, tilts a lever arm 52 mounted over a fulcrum 50 and thus releases the piston 18 . The spring element 24 relaxes and pushes the piston 18 into the commercially available carpule 12 by means of the piston rod 20 and shoots the fluid 16 located therein under high pressure from the nozzle 6 . In order to ensure that the locking element 46 is securely locked in place in the locking device 44 , it is preferred to provide a spring element that is under prestress.

Furthermore, a device 54, which is operatively connected to the trigger button 48, can be provided on the needleless injection device 2 according to the invention for removing the limiting device. The device 54 is, for example, integrally formed with the release button 48 so that the limiting device can be released.

The needleless injection device 2 according to the invention can preferably be uncoupled from the drive device for injecting the fluid 16 , so that an easy-to-use device is available. However, the device 2 according to the invention can also be used with a coupled drive device.

Claims (13)

1. A needleless injection device ( 2 ) for injecting fluids ( 16 ) into the body of a patient with a housing ( 4 ), a nozzle ( 6 ) provided at a first end ( 8 ), one containing the fluid ( 16 ) to be injected Carpule ( 12 ) receiving carpule receiving section ( 14 ), a piston ( 18 ), a spring element ( 24 ) acting on the piston ( 18 ), a tensioning mechanism for the spring element ( 24 ) and a release mechanism, the tensioning mechanism for tensioning the spring element ( 24 ) can be connected to a coupling device of a conventional dental drive device. 2. Injection device according to claim 1, wherein the clamping mechanism is provided on a second end ( 10 ) opposite the first end ( 8 ). 3. Injection device according to claim 1 or 2, wherein the clamping mechanism has a quick connection means ( 28 ) for connection to the drive device. 4. Injection device according to one of claims 1 to 3, wherein the clamping mechanism has a first axially fixed rotation element ( 30 ) and a second, with the first rotation element ( 30 ) rotationally operatively connected, axially movable rotation element ( 32 ). 5. Injection device according to claim 4, wherein the rotary elements ( 30 , 32 ) have a substantially semicircular cross section and are mounted together in the housing ( 4 ). 6. Injection device according to claim 4 or 5, wherein the axial mobility of the second rotary element ( 32 ) is formed by an external thread ( 38 ) provided thereon, which is in engagement with an internal thread ( 40 ) formed in the housing ( 4 ). 7. Injection device according to claim 5 or 6, wherein the two rotary elements ( 30 , 32 ) are connected to one another with a connecting element. 8. Injection device according to one of claims 1 to 7, wherein the clamping mechanism has a limiting device for the defined bias of the spring element ( 24 ). 9. Injection device according to claim 8, wherein the Limiting device one stop and one Has slip clutch. 10. The injection device according to claim 8, wherein the limiting device is a gearwheel ( 42 ) which engages with the rotation elements ( 30 , 32 ) and blocks the axial movement of the second rotation element ( 32 ) at a predeterminable axial position. 11. Injection device according to claim 10, wherein the Limiting device also a slip clutch having. 12. Injection device according to one of claims 1 to 11, wherein the trigger mechanism comprises a trigger button ( 48 ), a trigger lever ( 52 ) rotatably mounted via a pivot point ( 50 ) and a piston rod ( 20 ) provided on the piston ( 18 ) or on it. trained locking device ( 44 ) into and out of engagement locking element ( 46 ). 13. Injection device according to claim 12, wherein the trigger mechanism has a device ( 54 ) which is operatively connected to the trigger button ( 48 ) for lifting the limiting device.